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Materials Science and Technology Volume 24, 2008 - Issue 3
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Articles

Designing low carbon, low temperature bainite

H.-S. Yang
&
H. K. D. H. Bhadeshia
Pages 335-342 | Published online: 19 Jul 2013

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Minqiang Zou, Chengcong Huang, Liang Qi, Renguo Guan & Fusheng Zhu. (2021) Dynamic deformation behaviour of 0.51C–1.72Si–0.83Mn–0.56Co high-strength steel. Materials Science and Technology 37:13, pages 1129-1138.
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A. Bhattacharya & S. Sangal. (2016) Evolution of bainitic microstructure in vanadium-bearing microalloyed steel with two-step cooling. Materials Science and Technology 32:12, pages 1296-1301.
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Z. Zhang, X.-C. Wu, N. Li & Y.-A. Min. (2015) Alloy optimisation of bainitic steel for large plastic mould. Materials Science and Technology 31:14, pages 1706-1714.
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X. Y. Feng, F. C. Zhang, J. Kang, Z. N. Yang & X. Y. Long. (2014) Sliding wear and low cycle fatigue properties of new carbide free bainitic rail steel. Materials Science and Technology 30:12, pages 1410-1418.
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A. A. Shirzadi, H. K. D. H. Bhadeshia, L. Karlsson & P. J. Withers. (2009) Stainless steel weld metal designed to mitigate residual stresses. Science and Technology of Welding and Joining 14:6, pages 559-565.
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J. H. Pak, H. K. D. H. Bhadeshia, L. Karlsson & E. Keehan. (2008) Coalesced bainite by isothermal transformation of reheated weld metal. Science and Technology of Welding and Joining 13:7, pages 593-597.
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Articles from other publishers (73)

Naiyou Xiao, Junjie Fei, Meiying Li, Jianhua Zhou & Tao Jia. (2024) Design of cooling route for carbide-free bainitic rail steels and resultant microstructures and properties. Materials Science and Engineering: A 891, pages 145936.
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Aleksandra Królicka, Francisca Garcia Caballero, José Antonio Jimenez, Władysław Zalecki & Roman Kuziak. (2023) Development of advanced cementite-free bainitic steel using Ni, Al and Cu additions – Design concept and phase transformations study. Journal of Materials Research and Technology 27, pages 1265-1280.
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Mehdi Hosseinzadeh Khanmiri, Majid Charchi Aghdam, Hamid Mousalou, Behzad Avishan & Sasan Yazdani. (2023) Mechanical Properties of Step-Austempered Nanostructured Bainitic Steel with Modified Chemical Composition at Low and High Strain Rates. JOM.
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Avanish Kumar, B. Blessto & Aparna Singh. (2023) Development of a low-carbon carbide-free nanostructured bainitic steel with extremely high strength and toughness. Materials Science and Engineering: A 877, pages 145186.
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Xian Zhang, Li Gong, Yanpeng Feng, Zhihui Wang, Miao Yang, Lin Cheng, Jing Liu & Kaiming Wu. (2023) Effect of Retained Austenite on Corrosion Behavior of Ultrafine Bainitic Steel in Marine Environment. Acta Metallurgica Sinica (English Letters) 36:5, pages 717-731.
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Abdulkadir Kilic & Yasin Sarikavak. (2023) Taguchi based optimization to improve mechanical properties of high carbon rail steels via bainitic microstructure. Journal of Mechanical Science and Technology 37:5, pages 2363-2373.
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Pengfei Wang, Peng Chen, Dapeng Yang, Tao Wang & Hongliang Yi. (2023) 980 MPa Grade Low-Alloy Carbide-Free Bainitic Steel Obtained by Dynamic Continuous Cooling Transformation. Crystals 13:2, pages 213.
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Theerawat Kumnorkaew, Junhe Lian, Vitoon Uthaisangsuk, Jiali Zhang & Wolfgang Bleck. (2022) Low carbon bainitic steel processed by ausforming: Heterogeneous microstructure and mechanical properties. Materials Characterization 194, pages 112466.
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Ömer Faruk Murathan & Volkan Kilicli. (2022) Effect of isothermal heat treatments under M s temperature on the microstructures and mechanical properties of commercial high-silicon spring steel . Materials Testing 64:8, pages 1112-1121.
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Anže Bajželj & Jaka Burja. (2022) Influence of Austenitisation Temperature and Time on Martensitic and Isothermal Bainite Phase Transformation of Spring Steel. Metals 12:8, pages 1373.
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Grega Klančnik, Luka Krajnc, Aleš Nagode & Jaka Burja. (2022) Isothermal Quenching of As-Cast Medium Carbon, High-Silicon AR Steel. Materials 15:16, pages 5595.
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Mohamad Akram, Heinz Palkowski & Mohamed Soliman. (2021) Nanobainite Generated in Low‐ and Medium‐Carbon Steels via an Economical Alloying Strategy. steel research international 93:6, pages 2100575.
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X.Y. Long, D.Y. Sun, K. Wang, F.C. Zhang, Z.N. Yang, Y.G. Li & C.L. Zheng. (2022) Effect of carbon distribution range in mixed bainite / martensite / retained austenite microstructure on mechanical properties. Journal of Materials Research and Technology 17, pages 898-912.
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Chunxia Yao, Huifang Lan, Zhen Tao, Raja Devesh Kumar Misra & Linxiu Du. (2021) The Significance of Mn Prepartitioning on Bainitic Transformation and Mechanical Properties of a Low‐Carbon Bainitic Steel. steel research international 93:2, pages 2100371.
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Zhirui Wei, Haijiang Hu, Man Liu, Junyu Tian & Guang Xu. (2022) Effect of Austempering below and above Ms on the Microstructure and Wear Performance of a Low-Carbon Bainitic Steel. Metals 12:1, pages 104.
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Lihe Qian, Zhi Li, Tongliang Wang, Dongdong Li, Fucheng Zhang & Jiangying Meng. (2022) Roles of pre-formed martensite in below-Ms bainite formation, microstructure, strain partitioning and impact absorption energies of low-carbon bainitic steel. Journal of Materials Science & Technology 96, pages 69-84.
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Francisca G. Caballero & Carlos Garcia-Mateo. 2022. Encyclopedia of Materials: Metals and Alloys. Encyclopedia of Materials: Metals and Alloys 73 83 .
B. Syed, P Maurya, S. Lenka, G. Padmanabham & SM Shariff. (2021) Analysis of high strength composite structure developed for low-carbon-low-manganese steel sheet by laser surface treatment. Optics & Laser Technology 143, pages 107285.
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G.K. Bansal, S. Tripathy, A.K. Chandan, V. Rajinikanth, Chiradeep Ghosh, V.C. Srivastava & S. Ghosh Chowdhury. (2021) Influence of quenching strategy on phase transformation and mechanical properties of low alloy steel. Materials Science and Engineering: A 826, pages 141937.
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H.Y. Dong, C.Y. Hu, G.H. Wu, K.M. Wu & R.D.K. Misra. (2021) Effect of nickel on hardening behavior and mechanical properties of nanostructured bainite-austenite steels. Materials Science and Engineering: A 817, pages 141410.
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Tiwat Kaewkam, Panya Kansuwan, Naoto Ohtake, Pongsak Wila, Rungtip Krataithong, Nattaya Tosangthum, Thanyaporn Yotkaew & Ruangdaj Tongsri. (2021) Sintered Fe-Ni-Si-C alloys. IOP Conference Series: Materials Science and Engineering 1137:1, pages 012035.
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Amir Sabet Ghorabaei & Mahmoud Nili-Ahmadabadi. (2021) Effects of prior austenite grain size and phase transformation temperature on bainitic ferrite formation in multi-constituent microstructures of a strong ultra-low-carbon steel. Materials Science and Engineering: A 815, pages 141300.
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Chengcong Huang, Minqiang Zou, Liang Qi, Olanrewaju A. Ojo & Zhigang Wang. (2021) Effect of isothermal and pre-transformation temperatures on microstructure and properties of ultrafine bainitic steels. Journal of Materials Research and Technology 12, pages 1080-1090.
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Avanish Kumar & Aparna Singh. (2021) Mechanical properties of nanostructured bainitic steels. Materialia 15, pages 101034.
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Hamid Mousalou, Sasan Yazdani, Naghi Parvini Ahmadi & Behzad Avishan. (2020) Nanostructured Carbide-Free Bainite Formation in Low Carbon Steel. Acta Metallurgica Sinica (English Letters) 33:12, pages 1635-1644.
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Haijiang Hu, Junyu Tian, Guang Xu & Hatem S. Zurob. (2020) New insights into the effects of deformation below-M on isothermal kinetics of bainitic transformation. Journal of Materials Research and Technology 9:6, pages 15750-15758.
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Theerawat Kumnorkaew, Junhe Lian, Vitoon Uthaisangsuk & Wolfgang Bleck. (2020) Effect of ausforming on microstructure and hardness characteristics of bainitic steel. Journal of Materials Research and Technology 9:6, pages 13365-13374.
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Bo Gao, Zhunli Tan, Ping Luo, Guhui Gao, Min Zhang, Raja Devesh Kumar Misra & Bingzhe Bai. (2020) Bainitic Austempering Incorporating Quenching and Partitioning for Favorable Tuning of Microstructure and Mechanical Properties. steel research international 91:6, pages 1900510.
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Enzuo Liu, Qiangguo Li, Sufyan Naseem, Xuefei Huang & Weigang Huang. (2020) Effect of Isothermal Transformation Times below Ms and Tempering on Strength and Toughness of Low-Temperature Bainite in 0.53 C Bainitic Steel. Materials 13:10, pages 2418.
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Mohamad Akram, Heinz Palkowski & Mohamed Soliman. (2020) High-Strength Low-Cost Nano-Bainitic Steel. Journal of Materials Engineering and Performance 29:4, pages 2418-2427.
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Jun Hu. (2020) Low-density nanostructured bainitic steel with fast transformation rate and high impact-toughness. Materials Letters 261, pages 127105.
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Leijie Zhao, Lihe Qian, Qian Zhou, Dongdong Li, Tongliang Wang, Zhigeng Jia, Fucheng Zhang & Jiangying Meng. (2019) The combining effects of ausforming and below-Ms or above-Ms austempering on the transformation kinetics, microstructure and mechanical properties of low-carbon bainitic steel. Materials & Design 183, pages 108123.
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G.K. Bansal, V.C. Srivastava & S. Ghosh Chowdhury. (2019) Role of solute Nb in altering phase transformations during continuous cooling of a low-carbon steel. Materials Science and Engineering: A 767, pages 138416.
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Bogusława Adamczyk-Cieślak, Milena Koralnik, Roman Kuziak, Michał Smaczny, Tomasz Zygmunt & Jarosław Mizera. (2019) Effects of Heat Treatment Parameters on the Microstructure and Properties of Bainitic Steel. Journal of Materials Engineering and Performance 28:11, pages 7171-7180.
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Mir Taher Seiyed Beigi, Seyed Rahman Hosseini & Akbar Eshaghi. (2019) Evaluation of phase transformations and mechanical properties in a copper bearing high-strength low-carbon steel microalloyed with Nb. Materials Research Express 6:10, pages 106514.
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Behzad Avishan, Asghar Sefidgar & Sasan Yazdani. (2018) High strain rate deformation of nanostructured super bainite. Journal of Materials Science 54:4, pages 3455-3468.
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Hang Zou, Haijiang Hu, Guang Xu, Ziliu Xiong & Fangqin Dai. (2019) Combined Effects of Deformation and Undercooling on Isothermal Bainitic Transformation in an Fe-C-Mn-Si Alloy. Metals 9:2, pages 138.
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Jiang Ying Meng, Lei Jie Zhao, Fan Huang, Fu Cheng Zhang & Li He Qian. (2018) Isothermal Transformation, Microstructure and Mechanical Properties of Ausformed Low-Carbon Carbide-Free Bainitic Steel. Materials Science Forum 941, pages 329-333.
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Minal Shah & Suchandan K. Das. (2018) An Artificial Neural Network Model to Predict the Bainite Plate Thickness of Nanostructured Bainitic Steels Using an Efficient Network-Learning Algorithm. Journal of Materials Engineering and Performance 27:11, pages 5845-5855.
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